def serialize(xml, options):
try:
try:
import mapnik2 as mapnik
except ImportError:
import mapnik
except ImportError:
sys.exit(color_text(1, "Error: saving xml requires Mapnik python bindings to be installed"))
m = mapnik.Map(1, 1)
if options.from_string:
mapnik.load_map_from_string(m, xml, True)
else:
mapnik.load_map(m, xml, True)
if options.output:
mapnik.save_map(m, options.output)
else:
if hasattr(mapnik, "mapnik_version") and mapnik.mapnik_version() >= 700:
print mapnik.save_map_to_string(m)
else:
sys.exit(
color_text(
1,
"Minor error: printing XML to stdout requires Mapnik >=0.7.0, please provide a second argument to save the output to a file",
)
)
def test_load_save_map():
map = mapnik2.Map(256,256)
in_map = "../data/good_maps/raster_symbolizer.xml"
mapnik2.load_map(map, in_map)
out_map = mapnik2.save_map_to_string(map)
assert 'RasterSymbolizer' in out_map
assert 'RasterColorizer' in out_map
assert 'stop' in out_map
def main(root,**options):
m = mapnik.Map(1,1)
datasource = options.get('datasource')
if datasource and datasource.endswith('shp'):
shp_dir = os.path.abspath(datasource).split('.shp')[0]
name = datasource.split('.shp')[0]
datasource = mapnik.Shapefile(file=shp_dir)
if srid is not None:
m.srs = '+init=epsg:%s' % srid
else:
srs = proj4_from_osr(shp_dir)
if srs:
m.srs = srs
layers = []
if hasattr(root,'NamedLayer'):
layers.extend(root.NamedLayer)
if hasattr(root,'UserLayer'):
layers.extend(root.UserLayer)
for layer in layers:
m_layer, styles = ogc_layer_to_mapnik(layer)
for (name, style) in styles:
m.append_style(name, style)
if datasource:
m_layer.datasource = datasource
m_layer.srs = m.srs
m.layers.append(m_layer)
if FIX_HEX:
(handle, path) = tempfile.mkstemp(suffix='.xml', prefix='geotools2mapnik-')
os.close(handle)
open(path,'w').write(mapnik.save_map_to_string(m))
tree = objectify.parse(path)
fix_colors(tree)
print etree.tostring(tree)#,pretty_print=True)
else:
print mapnik.save_map_to_string(m)
def stream(self):
self.initialize()
for kml_reference in self.kmls:
self.m('handling %s' % kml_reference)
kml, tree = self.parse(kml_reference)
self.m('found kml: %s' % kml)
root = tree.getroot()
#self.ogr_ds = ogr.Open(kml)
#if not self.ogr_ds and not self.has_network_links:
#sys.exit('Sorry this KML is not a valid datasource, there are no layers!')
kml_name = self.kml_unique_name(kml)
self.collect_layer_style_maps(kml,tree)
features = self.get_features(root)
#self.collect_feature_styles(kml_name,features)
# make sense of stylemapping first
#if hasattr(root,'Document') and hasattr(root.Document,'StyleMap'):
style_maps,styles = self.get_all_style_data(tree,root)
self.collect_style_maps(kml_name,style_maps)
self.collect_styles(kml,kml_name,styles)
# then collect actual styles
#if hasattr(root,'Document') and hasattr(root.Document,'Style'):
# self.collect_styles(kml,kml_name,root.Document.Style)
# match stylesmaps to styles
#if self.style_maps.get(kml_name):
# if not self.style_maps[kml_name].get(sty_name): # if not hover...
# pass#break
self.handle_layers(kml,kml_name,features)
if not self.quiet:
print mapnik.save_map_to_string(self.map)
def test_load_save_map():
map = mapnik2.Map(256,256)
in_map = "../data/good_maps/raster_symbolizer.xml"
try:
mapnik2.load_map(map, in_map)
out_map = mapnik2.save_map_to_string(map)
assert 'RasterSymbolizer' in out_map
assert 'RasterColorizer' in out_map
assert 'stop' in out_map
except RuntimeError, e:
# only test datasources that we have installed
if not 'Could not create datasource' in str(e):
raise RuntimeError(str(e))
def test_load_save_load_map():
map = mapnik2.Map(256,256)
in_map = "../data/good_maps/glyph_symbolizer.xml"
mapnik2.load_map(map, in_map)
style = map.find_style('arrows')
sym = style.rules[0].symbols[0]
assert isinstance(sym, mapnik2.GlyphSymbolizer)
assert sym.angle_mode == mapnik2.angle_mode.AZIMUTH
out_map = mapnik2.save_map_to_string(map).decode('utf8')
map = mapnik2.Map(256,256)
mapnik2.load_map_from_string(map, out_map.encode('utf8'))
assert 'GlyphSymbolizer' in out_map
# make sure non-ascii characters are well supported since most interesting
# glyphs for symbology are usually in that range
assert u'í' in out_map, out_map
def view_xml(self, m=None):
if not self.dock_window:
self.dock_window = TextEditor(self)
self.iface.mainWindow().addDockWidget(Qt.BottomDockWidgetArea, self.dock_window)
if not self.using_mapnik:
# http://trac.osgeo.org/qgis/changeset/12955 - render starting signal
QObject.connect(self.canvas, SIGNAL("renderComplete(QPainter *)"), self.checkLayers)
self.dock_window.show()
if self.loaded_mapfile:
# if we have loaded a map xml or mml
# so lets just display the active file
xml = open(self.loaded_mapfile, "rb").read()
else:
if not m:
# regenerate from qgis objects
e_c = sync.EasyCanvas(self, self.canvas)
m = e_c.to_mapnik()
if hasattr(mapnik, "save_map_to_string"):
xml = mapnik.save_map_to_string(m)
else:
(handle, mapfile) = tempfile.mkstemp(".xml", "quantumnik-map-")
os.close(handle)
mapnik.save_map(m, str(mapfile))
xml = open(mapfile, "rb").read()
e = self.canvas.extent()
bbox = "%s %s %s %s" % (e.xMinimum(), e.yMinimum(), e.xMaximum(), e.yMaximum())
cmd = "\n<!-- nik2img.py mapnik.xml out.png -d %s %s -e %s -->\n" % (
self.canvas.width(),
self.canvas.height(),
bbox,
)
try:
if self.mapnik_map:
cmd += "<!-- <MinScaleDenominator>%s</MinScaleDenominator> -->\n" % (
self.mapnik_map.scale_denominator()
)
except:
pass
code = xml + cmd
if HIGHLIGHTING:
highlighted = highlight(code, XmlLexer(), HtmlFormatter(linenos=False, nowrap=False, full=True))
self.dock_window.textEdit.setHtml(highlighted)
else:
self.dock_window.textEdit.setText(xml + cmd)
def test_load_save_load_map():
map = mapnik2.Map(256,256)
in_map = "../data/good_maps/glyph_symbolizer.xml"
try:
mapnik2.load_map(map, in_map)
style = map.find_style('arrows')
sym = style.rules[0].symbols[0]
assert isinstance(sym, mapnik2.GlyphSymbolizer)
assert sym.angle_mode == mapnik2.angle_mode.AZIMUTH
out_map = mapnik2.save_map_to_string(map).decode('utf8')
map = mapnik2.Map(256,256)
mapnik2.load_map_from_string(map, out_map.encode('utf8'))
assert 'GlyphSymbolizer' in out_map
# make sure non-ascii characters are well supported since most interesting
# glyphs for symbology are usually in that range
assert u'í' in out_map, out_map
except RuntimeError, e:
# only test datasources that we have installed
if not 'Could not create datasource' in str(e):
raise RuntimeError(e)
def compare_map(in_map):
mapnik2.load_map(map, in_map)
(handle, test_map) = tempfile.mkstemp(suffix='.xml', prefix='mapnik-temp-map1-')
os.close(handle)
(handle, test_map2) = tempfile.mkstemp(suffix='.xml', prefix='mapnik-temp-map2-')
os.close(handle)
if os.path.exists(test_map):
os.remove(test_map)
mapnik2.save_map(map, test_map)
new_map = mapnik2.Map(256, 256)
mapnik2.load_map(new_map, test_map)
open(test_map2,'w').write(mapnik2.save_map_to_string(new_map))
diff = ' diff %s %s' % (os.path.abspath(test_map),os.path.abspath(test_map2))
try:
eq_(open(test_map).read(),open(test_map2).read())
except AssertionError, e:
raise AssertionError('serialized map "%s" not the same after being reloaded, \ncompare with command:\n\n$%s' % (in_map,diff))
def main(root,**options):
m = mapnik.Map(1,1)
idx = 0
layers = []
if hasattr(root,'NamedLayer'):
layers.extend(root.NamedLayer)
if hasattr(root,'UserLayer'):
layers.extend(root.UserLayer)
for layer in layers:
lyr = mapnik.Layer(str(getattr(layer,'Name',None) or 'Layer'))
datasource = options.get('datasource')
if datasource and datasource.endswith('shp'):
shp_dir = os.path.abspath(datasource).split('.shp')[0]
name = datasource.split('.shp')[0]
lyr.datasource = mapnik.Shapefile(file=shp_dir)
if options.get('srid'):
lyr.srs = '+init=epsg:%s' % options.get('srid')
m.srs = lyr.srs
else:
srs = proj4_from_osr(shp_dir)
if srs:
lyr.srs = srs
for user_style in layer.UserStyle:
for feature_style in user_style.FeatureTypeStyle:
m_sty = mapnik.Style()
# TODO = Styles should have title,abstract, etc...
sty_name = getattr(feature_style,'Name',None)
if not sty_name:
sty_name = '%s %s' % (lyr.name,str(idx))
sty_name = str(sty_name)
for rule in feature_style.Rule:
#print rule.get_childen()
m_rule = mapnik.Rule(str(getattr(rule,'Name','')))
ogc_filter = rule.find("{%s}Filter" % rule.nsmap['ogc'])
if ogc_filter is not None:
# TODO - support ogc:And and oc:Or
m_rule.filter = ogc_filter_to_mapnik(ogc_filter)
else:
if hasattr(rule,'ElseFilter'):
m_rule.set_else(True)
if hasattr(rule,'MaxScaleDenominator'):
m_rule.max_scale = float(rule.MaxScaleDenominator)
if hasattr(rule,'MinScaleDenominator'):
m_rule.min_scale = float(rule.MinScaleDenominator)
if hasattr(rule,'LineSymbolizer'):
stroke = rule.LineSymbolizer.Stroke
m_stroke = stroke_to_mapnik(stroke)
m_rule.symbols.append(mapnik.LineSymbolizer(m_stroke))
if hasattr(rule,'PolygonSymbolizer'):
fill = rule.PolygonSymbolizer.Fill
m_poly = fill_to_mapnik(fill)
m_rule.symbols.append(m_poly)
if hasattr(rule,'PointSymbolizer'):
#fill = rule.PolygonSymbolizer.Fill
#m_point = point_to_mapnik(point)
# TODO
m_rule.symbols.append(mapnik.PointSymbolizer())
if hasattr(rule,'TextSymbolizer'):
text = rule.TextSymbolizer
name = text.Label.find("{%s}PropertyName" % rule.nsmap['ogc'])
face_name = '[%s]' % text.Font
face_name = 'DejaVu Sans Book'
size = 10
for css in text.Font.CssParameter:
if css.get('name') == 'font-family':
face_name = css.text
elif css.get('name') == 'font-size':
size = int(float(css.text))
color = mapnik.Color('black')
for css in text.Fill.CssParameter:
if css.get('name') == 'fill':
color = mapnik.Color(css.text)
m_text = mapnik.TextSymbolizer(mapnik.Expression(str(name)),str(face_name),int(size),color)
if hasattr(text,'LabelPlacement'):
if hasattr(text.LabelPlacement,'LinePlacement'):
m_text.label_placement = mapnik.label_placement.LINE_PLACEMENT
if hasattr(text,'Halo'):
h = text.Halo
if hasattr(h,'Radius'):
m_text.halo_radius = float(h.Radius)
if hasattr(h,'Fill'):
for css in h.Fill.CssParameter:
if css.get('name') == 'fill':
m_text.halo_fill = mapnik.Color(css.text)
m_rule.symbols.append(m_text)
m_sty.rules.append(m_rule)
lyr.styles.append(sty_name)
m.append_style(sty_name,m_sty)
idx+= 1
m.layers.append(lyr)
if FIX_HEX:
(handle, path) = tempfile.mkstemp(suffix='.xml', prefix='geotools2mapnik-')
os.close(handle)
open(path,'w').write(mapnik.save_map_to_string(m))
tree = objectify.parse(path)
fix_colors(tree)
print etree.tostring(tree)#,pretty_print=True)
else:
print mapnik.save_map_to_string(m)
sty_name = lay+'_shape'
m.append_style(sty_name,sty)
layer.styles.append(sty_name)
if hit:
m.layers.append(layer)
text_rules = unique_layers[lay]['text_rules']
if len(text_rules):
sty = mapnik.Style()
sty.filter_mode = mapnik.filter_mode.FIRST
for rule in text_rules:
# TODO - allow returning whole style for text and casings
if catch:
if catch in rule.name:
sty.rules.append(rule)
else:
sty.rules.append(rule)
if len(sty.rules):
hit = True
sty_name = lay+'_text'
m.append_style(sty_name,sty)
text_layer = utils.copy_layer(layer)
text_layer.styles.append(sty_name)
text_layers.append(text_layer)
for lay in text_layers:
m.layers.append(lay)
print mapnik.save_map_to_string(m)
def main(root,**options):
m = mapnik.Map(1,1)
idx = 0
layers = []
if hasattr(root,'NamedLayer'):
layers.extend(root.NamedLayer)
if hasattr(root,'UserLayer'):
layers.extend(root.UserLayer)
for layer in layers:
lyr = mapnik.Layer(str(getattr(layer,'Name',None) or 'Layer'))
datasource = options.get('datasource')
if datasource and datasource.endswith('shp'):
shp_dir = os.path.abspath(datasource).split('.shp')[0]
name = datasource.split('.shp')[0]
lyr.datasource = mapnik.Shapefile(file=shp_dir)
if options.get('srid'):
lyr.srs = '+init=epsg:%s' % options.get('srid')
m.srs = lyr.srs
else:
srs = proj4_from_osr(shp_dir)
if srs:
lyr.srs = srs
for user_style in layer.UserStyle:
for feature_style in user_style.FeatureTypeStyle:
m_sty = mapnik.Style()
# TODO = Styles should have title,abstract, etc...
sty_name = getattr(feature_style,'Name',None)
if not sty_name:
sty_name = '%s %s' % (lyr.name,str(idx))
sty_name = str(sty_name)
for rule in feature_style.Rule:
#print rule.get_childen()
m_rule = mapnik.Rule(str(getattr(rule,'Name','')))
ogc_filter = rule.find("{%s}Filter" % rule.nsmap['ogc'])
if ogc_filter is not None:
# TODO - support ogc:And and oc:Or
m_rule.filter = ogc_filter_to_mapnik(ogc_filter)
else:
if hasattr(rule,'ElseFilter'):
m_rule.set_else(True)
if hasattr(rule,'MaxScaleDenominator'):
m_rule.max_scale = float(rule.MaxScaleDenominator)
if hasattr(rule,'MinScaleDenominator'):
m_rule.min_scale = float(rule.MinScaleDenominator)
if hasattr(rule,'LineSymbolizer'):
stroke = rule.LineSymbolizer.Stroke
m_stroke = stroke_to_mapnik(stroke)
m_rule.symbols.append(mapnik.LineSymbolizer(m_stroke))
if hasattr(rule,'PolygonSymbolizer'):
m_poly = mapnik.PolygonSymbolizer()
if hasattr(rule.PolygonSymbolizer,'Fill'):
fill = rule.PolygonSymbolizer.Fill
for css in fill.CssParameter:
if css.get('name') == 'fill':
m_poly.fill = mapnik.Color(css.text)
elif css.get('name') == 'fill-opacity':
m_poly.opacity = float(css.text)
else:
raise Exception('unhanded: ' + css.get('name'))
if hasattr(rule.PolygonSymbolizer,'Stroke'):
stroke = rule.PolygonSymbolizer.Stroke
m_stroke = stroke_to_mapnik(stroke)
m_rule.symbols.append(mapnik.LineSymbolizer(m_stroke))
m_rule.symbols.append(m_poly)
if hasattr(rule,'PointSymbolizer'):
#fill = rule.PolygonSymbolizer.Fill
#m_point = point_to_mapnik(point)
# TODO
m_rule.symbols.append(mapnik.PointSymbolizer())
if hasattr(rule,'TextSymbolizer'):
text = rule.TextSymbolizer
name = text.Label.find("{%s}PropertyName" % rule.nsmap['ogc'])
if not name and hasattr(text,'Label'):
name = shlex.split(str(text.Label))[0]
face_name = '[%s]' % text.Font
face_name = 'DejaVu Sans Book'
size = 10
for css in text.Font.CssParameter:
if css.get('name') == 'font-family':
face_name = css.text
elif css.get('name') == 'font-size':
size = int(float(css.text))
color = mapnik.Color('black')
for css in text.Fill.CssParameter:
if css.get('name') == 'fill':
color = mapnik.Color(css.text)
m_text = mapnik.TextSymbolizer(mapnik.Expression('['+str(name)+']'),str(face_name),int(size),color)
if hasattr(text,'LabelPlacement'):
if hasattr(text.LabelPlacement,'LinePlacement'):
m_text.label_placement = mapnik.label_placement.LINE_PLACEMENT
if hasattr(text,'Halo'):
h = text.Halo
if hasattr(h,'Radius'):
m_text.halo_radius = float(h.Radius)
if hasattr(h,'Fill'):
for css in h.Fill.CssParameter:
if css.get('name') == 'fill':
m_text.halo_fill = mapnik.Color(css.text)
m_rule.symbols.append(m_text)
m_sty.rules.append(m_rule)
lyr.styles.append(sty_name)
m.append_style(sty_name,m_sty)
idx+= 1
m.layers.append(lyr)
if FIX_HEX:
(handle, path) = tempfile.mkstemp(suffix='.xml', prefix='geotools2mapnik-')
os.close(handle)
open(path,'w').write(mapnik.save_map_to_string(m))
tree = objectify.parse(path)
fix_colors(tree)
print etree.tostring(tree)#,pretty_print=True)
else:
print mapnik.save_map_to_string(m)